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Google Professional-Cloud-Network-Engineer Exam With Confidence Using Practice Dumps

Exam Code:
Professional-Cloud-Network-Engineer
Exam Name:
Google Cloud Certified - Professional Cloud Network Engineer
Certification:
Google Cloud Platform
Vendor:
Google
Questions:
233
Last Updated:
Apr 9, 2026
Exam Status:
Stable
Google Professional-Cloud-Network-Engineer

Professional-Cloud-Network-Engineer: Google Cloud Platform Exam 2025 Study Guide Pdf and Test Engine

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Google Cloud Certified - Professional Cloud Network Engineer Questions and Answers

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Question 1

You are deploying GKE clusters in your organization's Google Cloud environment. The pods in these clusters need to egress directly to the internet for a majority of their communications. You need to deploy the clusters and associated networking features using the most cost-efficient approach, and following Google-recommended practices. What should you do?

Options:

A.

Q Deploy the GKE cluster with public cluster nodes. Do not deploy Cloud NAT or Secure Web Proxy for the cluster.

B.

Q Deploy the GKE cluster with private cluster nodes. Deploy Secure Web Proxy, and configure the pods to use Secure Web Proxy as an HTTP(S) proxy.

C.

Q Deploy the GKE cluster with public cluster nodes. Deploy Secure Web Proxy, and configure the pods to use Secure Web Proxy as an HTTP(S) proxy.

D.

Q Deploy the GKE cluster with private cluster nodes. Deploy Cloud NAT for the primary subnet of the cluster.

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Question 2

You need to configure a Google Kubernetes Engine (GKE) cluster. The initial deployment should have 5 nodes with the potential to scale to 10 nodes. The maximum number of Pods per node is 8. The number of services could grow from 100 to up to 1024. How should you design the IP schema to optimally meet this requirement?

Options:

A.

Configure a /28 primary IP address range for the node IP addresses. Configure a (25 secondary IP range for the Pods. Configure a /22 secondary IP range for the Services.

B.

Configure a /28 primary IP address range for the node IP addresses. Configure a /25 secondary IP range for the Pods. Configure a /21 secondary IP range for the Services.

C.

Configure a /28 primary IP address range for the node IP addresses. Configure a /28 secondary IP range for the Pods. Configure a /21 secondary IP range for the Services.

D.

Configure a /28 primary IP address range for the node IP addresses. Configure a /24 secondary IP range for the Pads. Configure a /22 secondary IP range for the Services.

Question 3

You are designing a hub-and-spoke network architecture for your company’s cloud-based environment. You need to make sure that all spokes are peered with the hub. The spokes must use the hub's virtual appliance for internet access.

The virtual appliance is configured in high-availability mode with two instances using an internal load balancer with IP address 10.0.0.5. What should you do?

Options:

A.

Create a default route in the hub VPC that points to IP address 10.0.0.5.

Delete the default internet gateway route in the hub VPC, and create a new higher-priority route that is tagged only to the appliances with a next hop of the default internet gateway.

Export the custom routes in the hub.

Import the custom routes in the spokes.

B.

Create a default route in the hub VPC that points to IP address 10.0.0.5.

Delete the default internet gateway route in the hub VPC, and create a new higher-priority route that is tagged only to the appliances with a next hop of the default internet gateway.

Export the custom routes in the hub. Import the custom routes in the spokes.

Delete the default internet gateway route of the spokes.

C.

Create two default routes in the hub VPC that point to the next hop instances of the virtual appliances.

Delete the default internet gateway route in the hub VPC, and create a new higher-priority route that is tagged only to the appliances with a next hop of the default internet gateway.

Export the custom routes in the hub. Import the custom routes in the spokes.

D.

Create a default route in the hub VPC that points to IP address 10.0.0.5.

Delete the default internet gateway route in the hub VPC, and create a new higher-priority route that is tagged only to the appliances with a next hop of the default internet gateway.

Create a new route in the spoke VPC that points to IP address 10.0.0.5.

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